Metal-working machine.



T. P. PAYNE & E. V. WURTS. METAL WORK-ING MACHlNE. Arrucmou man Amma. 1914.

T. P. PAYNE L E. V WURTS. METAL WORKING MACHWE. Avvucmoumeo mp2s. 1914.

Patentedept. 25, 191'?.

x 'va W/TNESSES:

T. P. PAYNE L E. V. WURTS.

METAL WORKING MACHINE. APPLlcAUou mno Amma. 1914.

IVE/vraies WITNESSES:

T. P. PAYNE L E. v. wuRTs.

METAL WORKiNG MACHINE. APPLlcATloN man APR. 28. 1914.

Patented Sept. 25, 1917 9 SHEETS-SHEET 4.

IN VEN TURS P. PAYNE 5; E. v. wums.

METAL WORKING MACHINE. APPLlcATxoN mw Amza, ism.

Patented Sept. 25, 1917.

9 SHEETS-SHEET 5.

WITNESSES T. P. PAYNE & E. V. WURTS.

METAL WORKING MACHINE.

T. P. PAYNE @L E. V. WURTS.

PutentedSept. 25, 191?.

9 SHEETS--SHEET I 4 EN, NX Ham C2 Am MP GA Nnu llrn KL wr' N W0 L...

Y AA TIC CLU MP T. P. PAYNE & LV. WURTS.

METAL WORKING MACHlNE. APPUCAHQN mit: APR.28. :914.

Yutvntedhopt.v 25, 1917.

9 SHEETS -SHEET E.

WITNESSES T. P. PYNE @L E. V. WURTS.

METAL WORKING MACHiNE. -APPLlcAHoN man APRJB. 1914.

Pamxted Sept` 25, 1917,

9 SHEETS-SHEET 9.

INI

lNVENTOHS THEODORE P. PAYNE, OF NEWARK, NE JERSEY,

ASSIGNORS TO STEEL BURGH, PENNSYLVANIA, PORATION OF NEW YORK.

METAL-WORKING MACHINE.

Specification of Letters Patent.

Patented Sept. 25, 1917.

v Application filed April 28, 1914. Serial No. 834,895.

to provide a novel machine for punching structural shapes and the like with precision and rapidity; to provide for automatically centering and positioning the punches and die blocks; to provide for edecting the fore-` going hydraulically; to provide for automatic control in such a machine for either a single punching mechanism or a plurality of punching mechanisms operating upon a shape traveled through the machine; to pro.- vide for automatic control of such a machine from a distance record device; to provide a hydraulically `operated machine of the kind last mentioned; to provide various novel combinations and instrumentalities for carrying out the Various features of the invention already indicated or hereinafter pointed out. These and other objects of invention will in part be set forth hereinafter and in part will be obvious herefrom.

The invention consists in the novel parts, constructions, arrangements, combinations and improvements herein shown andv described.

The accompanying drawings, referred to herein and forming a part hereof, illus` trate one embodiment ofthe invention and together with the description serve to eX- lain the principlesthereof.

Of the drawings:

Figure 1 is an elevation of the punch mechanism with its connections and coperating parts, with certain parts shown in section;

Fig. 2 is a vertical section on the line A-B of Fig. 1;

Fig. 3 is a central section through the punch operating cylinder and its associated parts; Y

Fig. 4 is a fragmentary View of a diEerent form of connection from the punch to the distance determining devices from that shown at the right hand side of Fig. 1;

Fig 5 is a general plan of the flange punches and the single and gang` web punches;

Fig. 6 is an elevation looking at Fig. 5

kfrom the foot;

Fig. 7 is a top plan of the piping and other connections for the punches;

Fig. 8 is an elevation and partial section on the line L-M of Fig 7 and Fig. 9 is a section and partial elevation on the line N--O of Fig. 7

Figs. 10 and 11 are fragmentary elevations of a gang punch (Fig. 11 being on line I--K of Fig. 10)

Fig. 12 is a fragmentary elevation of a form of device for centering the punches for beams of dierent sizes and for spacing or positioning the punches with the lower motor omitted;

Fig. 13 is a fragmentary elevation similar to Fig. 12 and showing the lower motor;

Fig. 14 is a fragmentary section on en larged scale of the punching devices on line C-D of Fig. 12;

Fig. 15 is an enlarged fragmentary section of the punching devices taken parallel to the plane of the paper in Fig. 12;

Figs. 16 and 17 are an enlarged plan and elevation, respectively, on Fig. 13 (Fig. 17 beiig a section on line G-H of Fig. 16); an

Fig. 18 is a fragmentary section on line P-f-Q, of Fig. 13. Y

Fig. 19 is a diagram of the distancerecord sheet and controlled circuits.

Referring to the embodiment illlustrated by way of example in the accompanying drawing, suitable means are shown for traveling and stopping a structural shape, such as an I- beam ai, relatively to the punching devices to be punched thereby. The particular form of such means is immaterial so far as concerns many features of our invention, and as embodied we have illustrated in a general way the form of such means shown in co-pending application for Patent Serial No. 814,380, filed January 26, 1914,

for traveling the beam longitudinally. In the illustrated form the shape rests upon i a series of driveny rolls 1, arranged in a horizontal pathway past one or more punching mechanisms.

The travel and stopping of the beam w relatively to. the punching means is controlled by distance determining devices, and connections therefrom tothe beam, As embodied, a head 2 is in delinite position with respect to the shape a", traveling therewith in such definite position, and preferably the leading end of the shape abuts against the head 2. Fixed tothe head 2 isa long rail or bar 3 extending backwardly along the shape m and traveling preferably guiding rollers 4. The bar 3 is provided on its top face with gear teeth 5, with,` which meshes the pinion .on the shaft of the distance determining device as shown in application SerialfNo. 814,380 before referred to. Thus the shape is traveled and stopped in accurate conformity with the setting ofthe distance determining devices to have the holes punched therein 'at the points or positionsin the beam corresponding to the settings ofthe distance determining devices. i

Referring now more particularly to the embodied punching devices, hydraulic means are provided for bringing the punch and die to the work and for punching the holes in the beam. Said punching mechanism is mounted in a vsuitable housing or frame, comprising plates 10'and 11, arranged vertically and parallel to each other and supported further by suitable means such as base angles 12, and having connecting .ties orstays 13. Means for effecting relative movement between the punching mechanism and the beam in a Adirection transversely to the length bf the beam and-in accordance with the settings of the distance determining devices are provided, and in the embodied form the punching mechanism travels trans, versely relatively to the beam under the control of the distance determining means.

In such embodied form upon the plates 10 and 11 horizontally arranged guides 15 and 16. Reciprocably mounted in said guides 15 and 'of cross frames or cross heads arranged at either side of the punching mechanism y proper, the upper cross head 17 and the corresponding lower cross head 18 being shown in section in Fig. 1, and being shown in their entirety in Figs. 13 and 14. The corresponding pair of cross frames 19 and 20 are arranged upon the opposite side ofthe punching mechanism and likewise reciprocate in the respective horizontal guides 15 and 16 carried by the plates 10 and 11. The cross heads or cross frames 17, 18, 19 and 20 are each apertured medially of their length.- In the apertures of cross frames 17 and 18 is in suitable, guides,

there are carried' -41 is supported by vcollars or lugs 53 and 54 fast to the cylinder 16 are pairs and 22 end of the frame piece 23, lthe frame piece 'being secured in position upon the rods between collars 24 and nuts 25. Supported upon the frame piece 23 is a die-block 26,

4which coperates with the punch as hereafter described. At the upper end of the' vertically reciprocable rods 21 and 22 is carried the frame piece 30, said frame pi'ece 30 being secured to the rods betweencollars 31 and nuts 32.

Means are provided by the invention for ioating the punch and die, that is, automatically centering them with respect to the work irrespective of the size of beam being run through, as in the case of punching the web of an I-beam. If different sized beams are'run in on the rollers 1, the height or position of the web will vary dependent upon the depth of the flange of the beam, andit is desirable and also necessary for rapid work that the punching mechanism automatically center itself with respect to beams of di'erent sizes. In the embodied form, whicltis adapted to av hydraulic punch, a plunger 40 is fixed to the frame. piece 30, the plunger 40 being hollow. Surroundin the plunger 40 is a cylinder 41, provided with a suitable packing ring or like device 42. The' `cylinder 41 is provided from a distance record sheet such as is shown and described -in application Serial No.

814,380, tiled January 26, 1914. The cylinder rods 51 and 52 secured to 41, and also fastened to a cross frame 55. A plunger 57 is fixed to the cross frame 55 the cylinder head and the in a suitable manner, as by a screw thread 56 in an aperture in the frame 55. The plunger 57 works in a cylinder 58 in the frame piece 30, the cylinder 58 communicating by a passage 59 with a suitable source of fluid pressure supply, such as a pipe 60.

The manner of operation of the punching mechanism described and shown is substantially as follows:

When the mechanism is at rest, the threeway valve 48 cuts off the pressure from the interior of the hollow plunger 40 but the pipe 60 is under pressure. Thus the cylinder Lainate 41 is lifted to its upper position as shown in 66 and 67 reciprocably carried by the cylinder Figs. 1, 2 and 3. When the punch is to be 41, the springs 68 and 69 being in compresactuated, the three-way valve 48 is operated, sion between the cylinder and the bar 65. either by the solenoid 50 or otherwise, to In Fig. 5 of the drawings, a battery of 5 admit the pressure fluid into the hollow punches. is shown, comprising a flange 70 plunger 40, the admitted fluid passing punch, such for instance as is shown in cothrough the port 45 into the space 46 bepending application, Serial No. 834,908, filed tween the plunger 40 and cylinder 41. Owcontemporaneously herewith, said flange ing to the greater downward pressure thus punch mechanism being indicated generally i0 exerted on cylinder 41, as compared with the by reference character a. 75

pressure on plunger 57, cylinder 41 moves Two web punches, such as we have already downwardly until the punch 44 presses described herein, are indicated generally as against the upper surface of the web of the b and c, said punches being arranged one beam m. When the punch 44 rests against after the other, or in tandem or series lon- 15 the beam the-pressure in the space 46 gitudinally along the path of travel of the 80 Y moves the plunger 40 upwardly, and also beam 1v. One of the punches b or c may have moves upwardly therewith the frame 30, the a gang of punches operated by a single cyl-. rods 21 and 22, the bottom frame 23 and thev inder and plunger as are shown in Figs. 10 die block 26. 'When the die block 26 is and 11. The shape. m may be traveled and iirmly against the bottom side of the web of stopped longitudinally with respect to the 85 the beam the pressure in the space 46 acts various punching mechanisms either by a against the cylinder 41 to drive the punch single distance determining device, autothrough the web, thus punching the beam. matic or otherwise, or by a plurality of such After the punching, the valvev 48v is again devices, such as one for each punch. An

25 operated to cut o the pressure from the holillustration of the first mentioned manner of 90 low interior of the plunger 40, said interior control is set forth incopending application is now opened into the exhaust, and the, for Patent Serial No. 814,380 filed January frame 23 and die block 26, the rods 21, 22 26, 1914, and an instance of the last menand frame move downwardly to a positioned manner of control is illustrated and 30 tion of rest upon the cross frames 17 and 19. described in copending application Serial 95 'lhe continuous pressure against the pli'in No. 790,085, filed September 16, 1913. ger 57 lifts the cylinder 41 to the position In connection with the conjoint operation shown inA Fig. 3, and the mechanism is ready of the various punching mechanisms autofor a succeeding punching operation. Thus maticdevices for alining and positionthe punch and die mechanism is self-centering and holding work are provided. In the 100 ing or has a floating action relatively'to thel embodied form of such means, devices are work, whereby the turning on of the power provided for holding the beam firmly to the to punch brings the punch and die to the rolls 1, and for preventing any rebound work, irrespective of the exact location of thereof, should there be any tendency there- 40 the work. v to. ln such embodied form, a pinching or 105 The means for effectingv the transverse clampingv roller 70 is shown mounted rotatatraveling and positioning of the. punch relably in a frame 71, said frame 71 being retively to the beam, in order that the holes ciprocably guided in suitable ways 7 3 may be properly located transversely of the formed in or carried by frames 75, which beam as well as longitudinally thereof comframes are mounted upon the frame of the 110 prises, in the embodied form, a U-frame 61 flange punch a. Said frame 71 is centrally connected to the left hand cross frames 17 connected to the plunger or piston of a fluid and 18, as shown in Fig. V1. In a threaded pressure cylinder 76 carried by a supportaperture in the U-frame 61 is received a ing bracket 77 mounted upon the frame o screw-threaded rod 62, the rotation of which the punch a. Said cylinder 76 has connec- 115 rod is controlled by the distance determintions to and controls for a suitable fluid presing device, such as is shown in application sure supply, to be later described. A cush- Serial No. 814,380 and hereinbefore referred ioning spring 78, if desired, may be arto. In Fig. 4 the frame 61 is shown with a ranged between a suitable bearing upon the bar 63 having lugs or spacers 64 fixed plunger of the cylinder 76 and a bracket 120 thereon, and adapted to coperate with a 79 liXed to the bracket 77. distance determining device such as is shown Suitable alining and gripping rollers actin application Serial No. 834,332 filed April ing upon the .shape to firmly hold it in po- 25, 1914. It will be understood that the parsition and alinement transversely are also ticular forms of distance determining deprovided, and as embodied alining rollers 125 vices referred to are illustrative and not re 80 and 81 bear against one of the flanges of the -strictive in character. A suitable stripping shape m. On the opposite side of the shape device is provided su h as an apertured bar is a device operable to lirmly press the through the aperture in which the punch shape against the rollers 80 and 81 during 65 passes, said bar being supported upon rods the punching operation. Said device com- 130 "be later described.

prises a cylinder 82, having a plunger 83 operated by the fluid pressure in said cylinder and moved thereby forward from a solid line position as shown in Fig. 5 to a dotted line position as shown in said figure. The travel or movement of the plunger 83 will vary according to the size of the shape, and the pressure may be of any desired amount irrespective of the distance of travel of the plunger 83. Suitable connections for the cylinder 82 to convey and control the fluid under pressure are provided and Will On the opposite side of the punching mechanism c similar pinching and alining rollers are shown, and need not be described in detail, and have the same reference numerals applied thereto.

4In Figs. 7, 8 and 9, a system of fluid `pressure actuating means and controls for the general arrangement or system of punches just described are illustrated, the parts being somewhat differently disposed and proportioned for the sake of clearness. As embodied, the system will be regarded as hydraulically operated and in certain aspects of the invention this is the preferred form. The pressure tank 90 is kept under VYsubstantially constant pressure in a suitable manner,- as by an air pump 91 driven by a suitable motor 92, although so far as concerns many featuresl of the invention the pressure could be maintained and regulated in the tank 90 otherwise, as by a system of weights for example. Suitable means for controlling the pump 91 and motor 92 to maintain a constant pressure in the cylinder 90 may be provided of any desired or approved form.

The water is kept in circulation and at pressure in the system by a pump 93 driven by a motor 94, suitable controls of any approved kind being provided therefor. Pressure pipe 95 connects to pressure pipe 96, which communicates by a pipe 97 with the accumulator tank 90. A general return or exhaust pipe 98 communicates by a pipe 99 with a return or reservoir tank 100. A

pipe 101 connects from the bottom of tank 100 to the pump 93. The cylinder 76 at the right (Figs. 5, 6 and 7 is provided with a three-way valve 102 controlled by a suitable pilot valve 103, which may be automatically operated by a solenoid 104, which solenoid may be controlled by a distance record strip. The pressure pipe to the valve 102 is indicated by reference numeral 105. The cylinder 82 is provided with ports 106 and 107,

which are controlled by a valve 108, suppliedl by a pressure pipe 109 and operated by a pilot valve 110 having an automatic solenoid control 111, said solenoid being controlled from the distance record strip. The return or exhaust pipe for the foregoing is indivalve 118, operated by a pilot valve 119.

automatically controlled through a solenoid 120. The valve 118 is supplied with the Huid under pressure by means of a swivel jointed pipe 121 having joints permitting of vertical .and horizontal cylinder 41h. A similarly swiveled exhaust pipe 122 connects from the valve 118 to the pipe 98. Cylinder 41c is provided with a main valve 123 and a pilot valve 124, which may likewise be automaticallyI controlled as already described. A swivel pipe 125 connects from the valve 123 to a pressure pipe 96, and a swivel pipe 126 connects from valve 123 to the exhaust or return pipe 98. The left hand cylinder 76 is provided with a main valve 127, and with a pilot valve 128 which may have an automatic solenoid control. The pipe 130 supplies the pressure fluid to valve 127 through pipe 131, and pipe 132 communicates from valve 127 to exhaust or return pipe 112. Left hand cylinder 82 is provided with a main valve 133 and with a pilot valve 134, which may have the automatic solenoid control. Valve 133 is supplied with pressure fluid through pipe 135 and-communicates by pipe 136 with return pipe 112.

The invention, in accordance with certain features thereof, provides a form of the device whereby the entire centering is not eected by the cylinder, but the punch blocks and die blocks are preliminarily positioned or' centered for beams or shapes of different sizes, and the working stroke there- `by shortened and the time of operation decreased. In this case the floating action of the cylinder and plunger is employed only to bring the centered punch and die to the work and to make the perforations. In the embodied form (Figs. 12, 13 and 18), the rods 21 and 22, are screw threaded at their upper end, as indicated by reference nu-, meral 140. Screw thread 140 on said rods 21 and 22, respectively, engages the internal thread of a sleeve 141, which sleeve is rotatably supported in cross frames 17 and 19, and having a collar or flange 142 seated upon the bracket. Fixed to each sleeve 141 is a worm wheel 143, which meshes with a worm 144 on a shaft 145, which shaft extends across the machine from rod 21 to pipe communicating with,

movement of the f rody 22. Shaft 145 is driven by a gear 146 aperture in the' movable punch bevel gear 162.

and a pinion 147 from motor 148. Motor 148 may De controlled bv the distance record sheet such as is shown in application Serial No. 814,380 already referred'to. Thus as the shaft 145 is rotated, rods 21 and 22 are raised or lowered, and the center of the unches and dies moves therewith, to suit the size of the beam which is fed in on the rolls 1.

Means are provided by the invention, in accordance with one of its features, for positioning the punches and dies with respect to each other, and also for effecting and controlling such relative positioning lfrom the distance recordl sheet. As em'- bodied, one punch and-die, or one set of the punches and dies are fixed in position, as shown in Figs. 1 2' and 15, Rotatably mounted in the stationary punch'block 150 vis a shaft 151. Shaft 1,51Y -passes block 153 and is screw threaded at 152 to engage an internal'thread formedin the aperture in punch block 153. Shaft A151 connects by a universal joint 154with`a short shaft 155, said shaft 155 being journaled in a bracket 156 supported on cross frame 20.

A similar arrangement is provided for the die blocks, a shaft 157 being rotatably mounted in a fixed die block 158. Shaft 157 passes through a movable die block 159, the shaft having a screw thread 160 engagin an internal thread in the aperture of the die block 159. Means are provided for rotating shafts 155 and 157 to and' fro to correspondingly move the punch and die blocks 153 and 159, and as embodied shaft 157 has a beveled pinion 1.61, meshing with a Gear 162 is fixed on a sleeve 163 embracing rod 22. Fixed also to sleeve 163 is a bevel gear 164 meshing with a bevel pinion 165 fixed on shaft 155. Thus shafts 155 and 157 rotate in unison, while provision has been made by joint 154 for the reciprocation of the punches. Joint 154 also has a telescoping action due to changes in the level of shafts 151 and 155. Sleeve 163 is rotated to and fro by suitable means, such as a bevel pinion 169 meshing with gear 164 and fixed to a shaft 170. to which shaft is also fixed a slip or friction gear 166, driven by a pinion 167 driven by a motor 168.

The movement and positioning of the punches and dies are controlled by suitable devices. and in accordance with one feature of the invention. this is effected from the distance record `heet or by manually settable devices. As embodied, solenoid operated means are provided for this purpose. (')n bracket 156 are supported a series of solenoids 171.l which have suitable circuit connections to the distance record sheet or to the manually settable devices. The solenoid cores operate pins 17 2 working in aperthrough an V .dicated by b tures in the walls of the-supporting ring or bracket 156. Extending downwardly (Figs. 16 and 17 from the bevel gear is a lug 1 3 which is engaged by any set pin 1-72, thus stopping the gear 164, the sleeve 163 -and gear 162, and thus positioning-the punches and dies at the desired point. If desired, a like stop pin control could be applied to shaft 145.

In Fig.'19 is shown a diagram of the distance record sheet and circuits controlled thereby, the4 distance record sheet being inand the various pairs o cop- .The windings indierating, contacts by a;

those of the cated in Fig..19 by 171 are correspondingly numbered solenoids in Figs.

16 and 17 'The windings marked 120 are those of the correspondingly numbered solenoids selectively controlling the web and gang punches, and include the solenoid marked 50 in Fig. 3 of the drawings. The winding of the solenoid controlling the punch for the beam flanges is correspondingly indicated by 115. B indicates the solenoid actuated switch, controlled from the stop circuit of the motor whichoperates and controls shaft 62 of the transverse distance determining device. controlled in the usual manner,-from the stop circuit of motor 168, Figs. 13 and 16. D is the solenoid actuated switch controlled from stop circuit of the longitudinal distance determining device, and controlling the movement and stopping of rack bar 3 in the manner described and referred to, land also controlling the motor driving the rolls 1. Switches B, C and D time the action of the punch by holding the circuit open until the various motors all come to a stop.

C is a similar switch, y

The windings of the gag solenoids, shown in Fig. 15 of the drawings. are indicated in Fig. 19 by the word Gags, the distance record sheet thereby selecting the desired punches. Other solenoids may be controlled from the distance record sheet in like manner. and the circuits therefor would be shown practically as duplgites of some of the present circuits. WW

The mechanism just described for automatically regulating the relative positioning of the punches and dies has been made the subject-matter of a divisional application, Serial No. 179.887filed July 11. 1917.

From all the foregoing it will be understood that mechanism has been provided realizing and embodying the objects and advantages herein set forth, together with other objects and advantages. It will be further understood that changes may be made from the precise form of mechanism shown. within the scope of the accompanying claims. without departing from the prin- `ciples of the invention, and without sacrishape, and

. able distances into y die member, and

What we claim as our invention and 'desire to secure by Letters Patent is 1. A punching machine adapted to operate upon structuralv shapes of different sizes and including in combination means for feeding a s 'ape by the liange, a punch member and die member having a variable throw and coperating to punch the web of the means for applying power Vto bring one of said members to the work and thereby to bring the other of said members to the work and thereby to lcause said members to punch the work.

2. A punching machine including in combination a punch carrying member, a die carrying member, each movable variable distances toward the work so as to accommodate work wherein the part to be punched varies in position between the punch anddie, yielding power means for bringing one of said'members the required distance idly to the work, and is thereby transferred to bring the other of said members its` required distance idly to the work, and is thereby caused to move said members to punch the work.

punching machine including in combination, a punch member, a die member, and` means for applying power thereto to bring successively one and then the other of said members variable distances to the work and'then tov punch `the work and automatic means for applying the power.

4. A punching machine including in combination, a punch member, a die member, and hydraulically operated means for applying power thereto to bring successively one and then 'the other of said members variablel distances to the work and then to punch the work and automatic means for applying the power.

A punching machine including in combination a punching member, a coperating power means for bringing die members variable dissaid punch and tances into engagement with thework and for punching the work, and automatic means for applying the power.

6. A punching machine including in combination a punching member, a coperating d ie member. and hydraulic power means for bringing said punch and die members variengagement with the work and'for punching the work, and automatic means for applying the power.

7. A punching machine including in combination, a punch member, a die member, and means for applyingpower thereto to bring one and then the other of said members to the work and then to punch the work and means controlled from a distance record sheet for applying the power.

8. A punchin machine including in combination, a punc member, a die member, and

'and fiuld record sheet for applying the power.

fluid pressure operated means for applying and means controlled from a distance 10. A punching machine including in combination a punching member, a die member, and hydraulic power means operating Ito move one of said members, the power being thereby applied to bring the other member to the work and being thereby applied to punch the work and a distance record sheet for applying the power.

11.. A punching machine including in combination means for feeding in on their flan e edges beams of various sizes, a web punc ing member, a die member therefor, means for moving one of said members a variable distance dependent upon the size of the beam, into engagement with the web, and for moving the other of said members a variable distance into engagement with the web and for causing said members then -to punch the web. 12. A punching machine including in combination means for feeding in on their fiange edges beams of various sizes, a web punching member, a die member therefor, means for moving one of said members a variable distance, dependent upon the size of the beam, into engagement" with the web, and thereby moving the other of said members a variable distance into engagement with the web and there y causing said members to punch the we .n

13. A punching machine including incombination, a punch member, a die member,

pressure operated means for applylng power thereto to bring one and then the other of said members to the work andy then to punch the work, a valve therefor and means for operating said valve fromya distance record device. i i

14. A punchingmachine including in combination a punching member, a die member,

means controlled from from a distance ber, yand hydraulically operated means for applying power thereto to' bring one and then the other of said members to the work and then to punch the work, a valve therefor and an automatic electrical operating device for said valve.

16. A punching machine including in combination a punching member, a die member, and hydraulic power means operating to move one of said members, the power being thereby applied to bring the other member to the work and being thereby applied to punch the work, a valve therefor and an automatic electrical operating device for said valve.

17. A punching machinel including in combination, a punch member, a die member, and means for applying power thereto to bring one and then the other of said members to the work and then to punch the work, means for traveling and stopping the work in various desired positions to be punched and coperating means for controlling the application of power to the punching devices.

18. A punching machine including in combination, a punch member, a die member, and means for applying power thereto to bring one and then the other of said members to the work and then to punch the Work, means operating automatically for traveling and stopping the work in various desired positions to be. punched, and co-" operating means for controlling the application of power to the punching devices. Y

19.- A punching machine including in combination, a punch member, a die member, and means for applying power thereto to bring one and then 'the other of said members to the work and then to punch the work, electrically operated means for traveling and stopping the work in various desired positions to be punched, and coperating electrical means for controlling the application of power to the punching devices. 20.. A punching machine including in combination, a punch member, a die meinber, and means for applying power thereto to bring one and then the other of said meinbers' to the work and then to punch the work, means for traveling and stopping the work in various desired positions to be punched, and coperating automatically operating means for controlling the application of power to the punching devices.

21. A punching machine including in combination, a punch member, a die member, and means for applyingpower thereto to bring one and then the other of said members to the work and then to punch the work, means operating automatically for traveling and stopping the work in various desired positions to be punched, and cooperating vautomatically operating means for of power to the controlling the application of power to the punching devices.

22. A punching machine including in combination, a punch member, a die member, and hydraulically operated means for applying power thereto to bring one and then the other of said members to the work and then to punch the work, means for traveling and stopping the work in various desired positions to be punched, and cooperating means for controlling theapplication of power to the punching devices.

23. A punching machine including in combination a punching member, a die meinber, and hydraulic power means operating to move one of said members, the power being thereby applied to bring the other member to the work and being thereby applied to punch the work, means for traveltions to be punched and to control the ap- .plication of the power to the punching devices.

25. A punching machine including in combination, a punch member, a Adie member, and means for applying power thereto to punch the Work, a distance record device and means coperating automatically therewith to travel and stop the work in various desired positions to be punched and to control the application of the power to the punching devices.

26. A punching machine including in combination, 'a punch member, a die member, and hydraulically operated means for applying power thereto to punch the work, a distance record device and electrical means coperating automatically therewith to travel and stop the work in various desired positions to be punched and to control the application of the power yto the punching devices.

27. A punching machine including in combination a punching member, a die member, and power means operating to punch the work, a distance record device and coinprising a distance determining mechanism. means coperating automatically therewith to travel and stop the work'in various.de sired positions to be punched and to control the application of the power to the punching devices.

28. A punching machine including in iis combination a punching member, a die meml bers to the work and then to punch the work ber, and' hydraulic power means operating to punch the work, a distance record device and means comprising a distance determining mechanism coperating automatically therewith to travel and stop the work in various desired positions to be punched and electrical means governed by the distance record device to control the application of the power to the punching devices.

29. A punching machine including in combination a cylinder, a plunger, a punch connected to one of them, a die connected to the other, and means for supplying pressure` fluid therebetween including a valve device andan automatic control therefor.

30. A punching machine including A in combination a cyllnder, a plunger, a punch connected to one of them, a die connected to the other, and means for supplying pressure fiuid therebetween including a valve device and means for controlling same in- -cluding a distance record device. 31. A punching lmachine including in combination, a punch member, a die mem-A ber, and means for applying power thereto to bring one and then the other of said memand means for traveling said punch and die Vby distance values to properly position the holes in the work.

32. A punching machine including in combination, a punch member, a die memher, and means'for applying power thereto to bring one and then the other of said members to the work and then to punch the work and means including a distance record device for traveling said punch and die by distance values to properly position the holes in the work.

33. A punching machine including in combination, a punch member, a die member, and hydraulically operated means for applying power thereto to bring one and then the other of said members to the work and then to punch the work and means for traveling said punch and die by distance values to properly position the'holes in the work. 34. A punching machine including. in combination, a punch member, a die member, and hydraulically operated means for applying power thereto to bring one and then the other of said members to the work and thenl to punch the work and means ifncluding a distance record device for traveling said punch and die by distance values to properly position the holes in the work.

35. A punching machine including in combination a cylinder, a plunger, a punch connected to one ofy them, a die connected to the other, and means for supplying pressure fluid therebetween and means for traveling said punch and die by distance values to properly position the holes in the work.

and plunger together by fluid pressure,l

means for applying greater pressure to force them apart and means for. traveling said punch and die by distance values to properly position the holes in the work. Y

38. A punching machine including in combination a cylinder, a plunger, a punch connected to one of them, a die connected to the other, means for holding said cylinder and plunger together by fluid pressure, means for applying greater pressure to force them apart and means including a distance record device for traveling said punch andV die by distance values to the holes in the work.

39. A punching machine including in combination a cylinder, a plunger, a punch connected to oneof them, a die connected to the other, means for supplying pressure Huid therebetween including a valve device and means for controlling same including a distance record device and means for travproperly position cling said punch and die by distance values to properly position the holes in the work.

40. A punching machine including in combination a cylinder, a plunger, a punch connected to one of them, a die connected to the other, means for supplying pressure fluid therebetween including a valve device, means for controlling same including a distance record device and means including a ydistance record device for traveling said punch and die by distance values to properly position the holes in the work.

41. A punching machine including in comybination, punching means, alining means,

and means for traveling and stopping the shape relatively to the punching means and automatic means for conjointly controlling said various means.

42. A punching machine including in combination, punching means, alining means, and meansl for traveling and stopping the shape relatively to thepunching mearf'b and fluid vpressure means for conjointly cor.l trolling'said various means.

43. A punching machine including in cornbination, punching means, alining means, and means for traveling and stopping the shape relatively to the punching means and means for conjointly controlling said various means including a distance record device.

44. A punching machine includingin combination, hydraulically operated punching means, alining means, and means for traveling and stopping the shape relatively to the punching means and automatic means for conjointly controlling said various means. i 45. A punching machine including in combination, punching means, fluid pressure operated alining means, and means for traveling and stopping the shape relatively to the punching means and automatic means for conjointly controlling said various means.

46. A punching machine including in combination, punching means, hydraulically operated alining means, and means for traveling and stopping the shape relatively to the punching means and automatic means for conjointly controllingsaid various means.

47. A punching machine including in com-- bination, Huid pressure punching means, alining means, and means for traveling and stopping the shape relatively to the punching means and fluid pressure means for conjointly controlling said various means.

48. A punching machine including-in combination, hydraulically operated punching means, alining means, and means for travcling and stopping the shape relatively to the punching means and hydraulic means, for conjointly controlling said various means.

49. A punching machine including in combination, a plurality of punching means, alining means, and means for traveling and selectively stopping the shape relatively to the respective punching means andautomatic means for conjointly controlling said various means.

50. A punchingmachine including in combination, a plurality of punching means, alining means, and means for traveling and selectively stopping the shape relatively to the punching means and means for conjointly controlling said various means including a distance record device.

51. A punching machine including in combination, a plurality of punching means, alining means, and means for traveling and stopping the shape relatively to the punching means and automatic means for conjointly controlling said various means and means for traveling said punches relatively to each other and the Work to properly position thel punches in the Work. v y 52. A punching machine including in combination, a plurality of punching means, alining means, and means for traveling and stopping the shape relatively to the punchin means and automatic means for conjomtly controlling said various'means and' means for traveling said punches relatively to each other and the Work to properly posito operate upon th combination a plurality of tion the punches in the Work, said means including a distance determining device and a distance record device controlling it.

53. A punching machine including in combination a flange punch, a Web punch, means for traveling the Work past said punches and positioning it relatively thereto, and means for selectively causing said punchesto operate upon the Work.

54. A punching machine including in combination a plurality of flange punches, a Web punch, means for traveling the Work past said punches and positioning it relatively thereto, and said punches to operate upon the Work.

55. A punching machine including in combination a flange punch, a Web punch, means for traveling the Workpast said punches and positioning it relatively thereto, means for traveling said punches relatively to each other, and means for selectively causing said punches to operate upon the Work.

56. A punching machine including in combination a fiange punch, a Web punch, means for traveling the Work past said punches and positiomng it relatively thereto, means including a distance record device for traveling said punches relatively to each other, and means for selectively causing said punches to operate upon the Work.

57. A punching machine including in combination a flange punch, a web punch, means including a distance record device for traveling the Work past said punches and positioning it relatively thereto, and means for selectively causing said punches e Work.

58. A punching machine including in combination a flange punch, a web punch, means for traveling the Work past said punches and positioning it relatively thereto, means for traveling said punches relatively to each other, tively causing said punches to operate upon the Work and a distance record device controllin both said traveling means.

59. punching machine including in combination a plurality of punches arranged in a series and including a liange punch and a web punch, and means for traveling and stopping a shape relatively to said punches and controllinvrv means therefor whereby the flange and We rivet holes are punched in once running the shape through the machine.

60. A punching machine including in punches arranged in a series and including a ange punch and a web punch, and means including a distance determining device for traveling andstopping a shaperelatively to said punches and controllin mea-ns therefor whereby the flange and web rivet holes are punched in once running the shape through the machine. y

and means for selecmeans for selectively causing .combinatlon a vice for traveling a punch transverse a series an 61. A punching machine including in combinat'on a plurality of punches arranged in a series and including a flange punch and .a web punch, and means including a distance traveling and stopping a record device for shape relatively to said punches and controlling means whereby the flange and web rivet holes are punched in once running the shape through the machine.

62. A combination a plurality of punches arranged in a series and including a flange punch and a web punch, and means for traveling and sto ping a shape relatively to said punches, an selectively"operating controlling means therefor whereby the flange and web rivet holes are punched in once running the shape 'through the machine.

63. A punching machine including in combination a plurality of punches'arranged in a series and including a flange punch and a web punch',"\and means including a distance determining device for traveling and stopping a shape relatively to said punches and selectively operating controlling means therefor whereby the viiange and web rivet hles are throught e machine.

64. A punching machiney including in combination a plurality of punches arranged ina series and including a flange punch and a web punch, and means includmg a distance record device anda distance determining device controlled thereby for traveling and stopping a shape relatively to sai punches and selectively operating controlling means whereb the flange and web rivet holes are punched 1n once running the shape through the machine.

65. A punching machine including in plurality of punches arranged in a series and including a flange punch and a web punch, and means for -traveling and stoppinfg a shape relatively to said punches, means or traveling a punch transversely to the shape,

a-series and including a fiange punch and a web punch, and means for traveling and stopping a shape 'relatively to said punches, means including a distance determinin dey to the shape, and controlling means whereby the ange and web rivet holes' are punched in once running the shape through the machine.

punching machine including in combination a lurality of. punches arranged in including a ange punch and a punching machine including inf unched in once running the shape and controlling means thereforl whereby the liange and web rivet holes are punched in once running the shape through web punch, and means for traveling and stopping a shape relatively to said punches, means inclu ding a distance record device for traveling a punch transversely to theshape,

and controlling means whereby the flangel and web rivet holes are punched in once running the shape through the machine.

68. A punching machine including in combination a plurality of punches, a head carrying said punches, and decreasing the punches, and automatic means for controlling said spacing and means for selectively gagging said punches.

69. A punchlng machine including in com-- bination a plurality of punches, a head lcarrying said punches, means for increasing and decreasing the distance between the punches, and automatic means for controlling said spacing and means including a distance record device for selectively gagging said punches.

70. A punching machine including in combination a plurality of punches, a head carrying said punches, means for increasing and decreasing the distance between'the punches and automatic means for controlllng said spacing and mechanical means electrically operated for lselectively gagging said punches.

71. A punching machine including in combination -a punch, a die, mechanical means for centering the punch and die vtransversely relatively tc the web of an I-beam and hydraulic means for causing the punch to perforate the work.

72. Ai punching machine including in combination a cylinder, a plunger, a punch fixed to travel with one of them, a die fixed to travel with the other," means for admittin pressure fluid between the cylinder an plunger to force the plunger and die together, and means for varymg the distance between the plunger and die.

7 3. A pun ching machine including in combination a punch carrier having a plurality of punches, a die carrier having a lurality of dies, and preliminarily settabe means for varying the transverse position of the plurality of the punches and dies relatively to the work.

74. A punching machine including in combination a punch carrier having a plurality of punches, a die carrier having a plurality of dies, and means including a distance record device for varying the transverse position of the pluralit .1 of punches and dies relatively to` the worl.

75. A punching machine including in combination a punch carrier having a plurality of punches, a die carrier having a plurality of dies, and preliminarily settable means for both varying the transverse position of the plurality of punches and dies relatively to the work and the distance between the respective pairs of punches and dies.

76. A punching machine including in com- 5 bination a punch carrier having a plurality.

of punches, a die carrier having a plurality of dies, and means, including a single distance record device for both varying the transverse position of the plurality of 10 punches and dies relative to the work and the distance between the respective pairs of punches and dies.

In testimony whereof, we have signed our names to this specification, in the presence of two subscribing witnesses.

THEODORE P. PAYNE. EDWARD V. WURTS. Witnesses:

JOHN D. MORGAN, HENRY R. LINDERMAN. 

